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Voltage-gated Potassium Channel

spinqualitylabelsall models PDB ID 1bl8 Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image
1bl8, resolution 3.20Å ()
Ligands:
Structural annotation: Resources: CATH : 1Bl8A00, 1Bl8B00, 1Bl8C00, 1Bl8D00 InterPro : Ipr003091, Ipr013099 Pfam : PF07885 SCOP : d1bl8a_, d1bl8b_, d1bl8c_, d1bl8d_ UniProt : P0A334
Functional annotation: Cellular component: integral to membrane membrane voltage-gated potassium channel complex Biological process: transport ion transport potassium ion transport Molecular function: ion channel activity voltage-gated potassium channel activity voltage-gated ion channel activity
Evolutionary conservation: Toggle Conservation Colors: Rows = identical sequences: Further Information: Caveats, Explanation, Complete Results at ConSurfDB
Resources:	FirstGlance, OCA, RCSB, PDBsum
Coordinates:	save as pdb, mmCIF, xml

Backgound

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This crystal structure illuminated the principles of ion selectivity when it was solved in 1998.^[1] To further demonstrate the importance of this structure, the 2003 Nobel Prize in Chemistry was awarded to the principal investigator, Roderick MacKinnon.

Channel Structure:

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spinqualitylabelsall models This Streptomyces lividans protein was the first potassium channel to be crystallized. Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image

As described by Doyle, et al in their original paper, the potassium channel forms an "inverted teepee, or cone" with the widest portion facing the extracellular space.^[1] Almost the entire structure is buried within the lipid bilayer, which is evident when the structure is colored according to the of each sidechain (hydrophobic residues are shown in grey and hydrophilic in purple.)

As indicated by the coloring of the , this channel is a homotetramer, which means that it is comprised of four identical protein chains or . Each monomer is predominantly alpha , with no beta strands. When viewed in (where the N-terminus is blue and the C-terminus is red), one can see that both termini are located on the cytosolic side of the membrane. The central core of the potassium channel is comprised of the two C-terminal helices from each monomeric subunit. The region between these two helices will be our main focus, as it lines the cavity and makes contacts with the migrating potassium ions.

The central core of this protein is comprised of eight helices, two from each monomeric subunit. Since each has the same orientation in the membrane, the protein has a four-fold rotational symmetry when viewed from the membrane surface. As a result, each of the channel-lining residues appears as a ring of four identical sidechains. This principle is represented by the conserved residues that function as selectivity filters within the cavity. Additional and residues line the channel. Looking at a of these residues, one can see that some hydrophobic patches remain within the cavity.

Channel Function:

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Here's how it works.

References

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1. ↑ ^{1.0 1.1} Doyle DA, Morais Cabral J, Pfuetzner RA, Kuo A, Gulbis JM, Cohen SL, Chait BT, MacKinnon R. The structure of the potassium channel: molecular basis of K+ conduction and selectivity. Science. 1998 Apr 3;280(5360):69-77. PMID:9525859